Search Results - joseph+de+rutte

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2021-313 METHODS OF ANALYZING NANOVIALS CONTAINING CELLS USING FLUORESCENCE ACTIVATED CELL SORTING

Summary: UCLA researchers in the Department of Bioengineering have developed a high throughput, single cell screening and sorting platform to facilitate single cell functional assays. Background: Biological assays are usually performed using microwell plates because of their ability to scale experiments and integrate with current lab automation...

Published: 7/19/2023 | Inventor(s): Dino Di Carlo, Joseph de Rutte, Robert Dimatteo

Keywords(s): Assay, Biotechnology, Life Science Research Tools, Nanotechnology, Targets And Assays

Category(s): Life Science Research Tools > Cell Lines, Life Science Research Tools > Research Methods, Materials > Functional Materials, Diagnostic Markers > Targets And Assays, Life Science Research Tools > Cell Counting And Imaging, Materials > Nanotechnology

2021-309-METHODS OF USING SHAPED PARTICLES IN FLOW CYTOMETERS FOR ASSAYS ON B CELLS AND T CELLS

Summary: UCLA researchers in the Department of Bioengineering have developed a platform to sort single cells based on their secreted product at high throughput using commonly accessible lab infrastructure, i.e., flow cytometers. Background: Techniques to sort single cells based on secreted products have the potential to accelerate the development...

Published: 7/19/2023 | Inventor(s): Dino Di Carlo, Joseph de Rutte, Robert Dimatteo, Maani Archang, Robert Damoiseaux, Doyeon Koo

Keywords(s): Antibody, B Cell, Bioassay, Cell Counting/Imaging, Cellular Differentiation, Cytometry, Flow Cytometry, Fluorescence, Hybridoma Technology, Secretory Component, T Cell, Targets And Assays

Category(s): Life Science Research Tools, Life Science Research Tools > Antibodies, Life Science Research Tools > Cell Lines, Life Science Research Tools > Research Methods, Life Science Research Tools > Other Reagents, Diagnostic Markers, Diagnostic Markers > Targets And Assays, Platforms > Diagnostic Platform Technologies

Biocompatible, Degradable Hollow Shell Particles for High-Throughput Screening and Sorting of Cells (Case No. 2021-026)

Summary: UCLA researchers in the Department of Bioengineering have developed a microfluidic technique that can encapsulate specific cells and separate them with fluorescence cell sorters. Background: The interest in cell-derived byproducts such as recombinant therapeutic proteins and antibody therapy has increased in the past years. Typically,...

Published: 7/31/2023 | Inventor(s): Dino Di Carlo, Mark Van Zee, Joseph de Rutte, Sohyung Lee

Keywords(s): Assay, Bioassay, Cell Growth, Fluorescence, Fluorescent Labelling, High-Content Screening, High-Throughput Screening, Nanotechnology, Screening Libraries

Category(s): Life Science Research Tools, Life Science Research Tools > Screening Libraries, Life Science Research Tools > Cell Lines, Life Science Research Tools > Cell Counting And Imaging, Materials > Nanotechnology

Monodisperse Emulsions Templated by 3D-Structured Microparticles

dana,Geneva,sans-serif">UCLA Case No. 2019-471 SUMMARY UCLA Researchers in the Departments of Bioengineering and Mathematics have developed a method to generate uniform, thermodynamically stabilized microdroplets with digitizable solid structures. BACKGROUND In standard emulsions, mixtures of different types of liquids result in non-uniform and...

Published: 7/19/2023 | Inventor(s): Dino Di Carlo, Chueh-Yu Wu, Andrea Bertozzi, Bao Wang, Joseph de Rutte, Kyung Ha

Keywords(s):

Category(s): Chemical > Instrumentation & Analysis, Chemical > Chemical Processing & Manufacturing

2019-035 SYSTEMS AND METHODS FOR MONODISPERSE DROP GENERATION AND USE

UC Case No. 2019-035 SUMMARYUCLA researchers in the Department of Bioengineering have developed systems and methods to produce single particle, monodisperse droplets for use in digital assays, targeted drug delivery, and theranostics.BACKGROUNDThe ability to identify and detect ultra-low level biomarkers in patients could open up a range of new diagnostic...

Published: 7/19/2023 | Inventor(s): Dino Di Carlo, Joseph de Rutte, Robert Dimatteo

Keywords(s):

Category(s): Platforms > Drug Delivery > Nanoparticles